Integrated System and Method for Validating the Functionality and Performance of Software Applications

ABSTRACT

The system and method presented provides a multi-phase, end-to-end integrated process for testing application software using a standard software testing tool. The system and method involve integrating the functional, automated regression and performance phases of software application testing by leveraging deliverables at each phase so that the deliverables may be efficiently reused in subsequent test phases. Deliverables such as functional and technical test conditions and manual test scripts are used as inputs for each phase of the integrated tests. The use of leveraged requirements-based deliverables between test phases significantly reduces much of the repetitive testing typically associated with functionality and performance testing and minimizes repetition of testing errors discovered in earlier test phases. This integrated system and method for validating the functionality and performance of software applications by leveraging deliverables provides enhanced efficiencies, test procedure consistency throughout multiple test phases, consistent test results and high quality software applications.

BACKGROUND

The present invention relates generally to a system and method forefficiently validating the functionality arid performance softwareapplications. In particular, the system and method relates to a multipletest phase integrated process for testing applications, in which thesystem and method enables the efficient use of test phase deliverablesto produce high quality business requirements-based softwareapplications.

Typically web-based software applications are designed to accommodate amultitude of different kinds of business transactions, where eachtransaction often requires a significant number of functions to beperformed In order to complete that transaction. The quality of asoftware application depends largely on the extensive functionalitytesting required to validate each function used to execute an on-linetransaction and that each on-line transaction is consistent with thebusiness functionality requirements. Software developers recognize thattesting software applications is a continuous process that is often timeconsuming, repetitive and expensive. The testing process is usuallydivided Into test phases which include unit test, system test,integration, user acceptance testing, customer installation and supporttest phases. Of the various test phases, phases such as the system testphase, which are designed to validate the functionality and performanceof a software application, quite often Involve the largest number ofrepetitive tests and tasks.

Repetitive testing and other inefficient testing methods are often theresult of having the various phases of test performed by separate andIndependent organizations that do not communicate with each other. Inthis type of testing scheme one organization performs the functionaltests which involve the creation of requirements-based conditions, testdata and manual lest scripts. Another organization independentlyperforms automated regression tests which also involve creatingrequirements-based test conditions, test data and manual test scriptsand a third organization conducts performance tests which againsimilarly requires the creation of requirements-based test conditions,test data and test scripts.

Those skilled in software test have recognized that the use ofindependent organizations to perform tests such as those in thefunctional, automated regression and performance test phases is anoverall testing method that results a high degree of duplicativetesting. Duplicative testing is highly inefficient, costly andtime-consuming. These types of inefficiencies are particularly apparentin the related areas of functional, automated regression and performancephase testing.

In addition to cost and time inefficiencies that may arise from a testprocess that uses Independent test organizations, quality issues mayalso he a concern. A quality issue that emerges from separatefunctional, automated regression and performance phase testing is thereduced level of consistency or coherence between test results from onephase and another. These inconsistencies often stem from the fact thatdifferent test organizations, although operating from the same businessrequirements, may select varying requirements and functions to test.

Variations in the requirements that are selected for test necessarilycauses variations in the test data and scripts that are derived fromsuch requirements. It may be the case that after the three test phaseshave been completed if is discovered that some functions and businessrequirements of the application were tested in one phase but not inanother. Another factor contributing to the inconsistency of testcoverage is that the method of testing a particular function orrequirement may vary from organization to organization. As a result,variations in the testing methods between phases and organization maylead to a reduced level of confidence in the quality of the softwareapplication that has bean tested, even if that application has passedall of the proscribed tests.

Inefficiencies In current testing methods are not exclusively the resultof varying testing methodologies of Independent organizations. Testprocedure inefficiencies also stem from the current methods or testingtoots used to perform the automated regression and performance tests.Standard automated testing tools allow the user to record and playbackautomatically inputs that are manually entered into the system by ananalysts. This method of test is common and may be adequate forrelatively small testing jobs but for larger jobs the level of manualrepetition is labor and time intensive as wall as extremely costly.Similarly, other inefficiencies may be present in current method forconducting performance tasting. Performance testing inefficiencies maybe due to low test coverage, an inappropriate selection of businessfunctions to he tested and duplicative testing.

For the foregoing reasons, in the software testing industry thereremains a need for a requirements-based method of testing applicationssoftware that is capable of producing consistent, coherent test resultsfrom the functional, automated regression and performance phases oftesting.

For the foregoing reasons, there is also a need for an end-to-endintegrated method for validating the functionality and performance ofsoftware applications that allows deliverables, such as functional andtechnical conditions and manual test scripts to be passed on from onephase to another when conducing functional, automated regression andperformance testing In order to expedite the overall system test cycle,enhance efficiencies, produce consistent results from phase to phase anda high level of confidence in the quality of the software application.

For the foregoing reasons, there is also a need for an organizationalstructure that promotes the integration of testing teams so thatcommunication is enhanced, information is effectively shared, workduplication minimized and testing costs reduced.

For the foregoing reasons, there is a need for a performance testingprocess that includes the initial identification of key businesstransactions and the Implementation of script standards that willincrease test case coverage, and enhance application quality.

For the forgoing reasons, there is also a need for a functional andautomated regression testing method that effectively segments testingtasks within the test phases such that task complexity is efficientlymatched to an analyst's level of skill.

SUMMARY

The foregoing disadvantages in the prior art have been successfullyovercome by the present invention, which is directed to an integratedmethod for validating the functionality and performance of a softwareapplication which uses a standard software testing tool.

If Is the object of the present invention to provide an end-to-endmethod of validating the functionality and performance of a softwareapplication that integrates the functional, automated regression andperformance test phases.

It is another object of the present invention to provide a method ofvalidating the functionality and performance of a software applicationthat leverages deliverables between the functional, automated regressionand performance test phases such as to enhance human resourceefficiency, reduce fasting errors and to produce high qualityapplication software.

It is yet another object of the present invention to provide anintegrated method that uses a common set of requirements-based manualtest scripts as input to the functional, automated regression andperformance lest phases thereby reducing repetitive testing.

It is yet another object of the present invention to provide anorganizational testing framework that uses standard testing tools tomore efficiently test the functionality and performance applicationsoftware.

It is yet another object of the present invention to provide anend-to-end end testing method that enables the functional, automatedregression and performance test phases to be performed concurrently andto produce consistent test results.

It is yet another object of the present invention to provide anefficient method of conducting automated regression and performancephase tests which includes segmenting the automated regression andperformance test phases such that test analysts may specifically beassigned to perform test segments that match their particular level ofskill, thereby minimizing the unnecessary use of highly experienced,costly analysts.

A first aspect of the invention features an integrated method forvalidating the functionality and performance of software applicationsthrough multiple test phases using a common set of businessrequirements-based manual test scripts. The method Includes the steps ofidentifying functional and technical requirements from the businessrequirements for the software application, deriving functional andtechnical test conditions in a functional test phase that are based onthe identified functional and technical requirements, creating manualtest scripts based on the functional and technical test conditions usinga standard software testing tool, wherein the manual test scripts arecreated in the functional test phase, executing the manual test scriptsand generating test results during the functional test phase using thestandard software testing tool accessed through a computer workstation,selecting a first subset of manual test scripts from the manual testscripts that can be used to automate testing during an automatedregression test phase, creating automated regression tests based on thefirst subset of manual test scripts and executing automated regressiontests and generating test results during the automated regression testphase using the standard software testing tool.

A second aspect of the invention features an integrated method forvalidating the functionality and performance of software applications inthe functional and performance test phases using a common set ofbusiness requirements-based manual test scripts. The method includes thesteps of identifying functional and technical requirements based on thebusiness requirements for the software application, deriving functionaland technical test conditions based on the identified functional andtechnical requirements in a functional test phase, creating manual testscripts based on the functional and technical test conditions using astandard software testing tool accessed through a computer workstation,executing the manual test scripts during the functional test phase usingthe standard software testing tool to execute the manual test scripts,selecting a subset of manual test scripts from the manual test scriptsthat can toe used during a performance test phase, creating performancetests based on the subset of manual test scripts and executing theperformance, tests during performance test phase and generating testresults using the standard software testing tool.

A third aspect of the invention features an integrated method forvalidating the functionality and performance of a software applicationthrough multiple test phases using a common sat of requirements-baseddeliverables. The method includes the steps of identifying functionaland technical requirements from the business requirements for thesoftware application, developing deliverables in a functional test phasethat are based on the identified functional and technical requirements,creating automated regression tests based on the deliverables, executingthe automated regression tests In an automated regression test phase andgenerating test results using the standard software testing tool andevaluating the test results.

A fourth aspect of the invention features an integrated system forvalidating the functionality and performance of software applicationsthrough multiple test phases using a common set of businessrequirements-based manual test scripts, the system comprising afunctional test phase module configured for identifying functional andtechnical requirements from the business requirements for the softwareapplication, deriving functional and technical test conditions in afunctional test phase that are based on the identified functional andtechnical requirements, creating manual test scripts based on thefunctional and technical test conditions using a standard softwaretesting tool accessed through a computer workstation, wherein the manualtest scripts are created in the functional test phase, and executing themanual test scripts and generating test results during the functionaltest phase using the standard software testing tool; and an automatedregression test phase module configured for selecting a first subset ofmanual test scripts from the manual test scripts that can be used toautomate testing during an automated regression test phase, creatingautomated regression tests based on the first subset of manual testscripts, executing automated regression tests and generating testresults during the automated regression test phase using the standardsoftware testing tool.

Embodiments of the invention may include one or more of the followingfeatures. The method may include the steps of selecting a second subsetof manual test scripts from the manual test scripts that can fee usedduring a performance test phase, creating performance tests based on thesecond subset of manual test scripts and executing performance tests andgenerating test results during the performance test phase using thestandard software testing tool. The method may include the step ofevaluating the test results from the manual test scripts execution Inthe functional test phase for at least two test cycles and validatingthe results before selecting a first or second subset of manual testscripts to be used for subsequent test phases. The method may alsoinclude the step of evaluating the test results from the automatedregression tests executed during the automated test phase. The firstsubset of manual test scripts may Include all manual test scripts. Thesecond subset of manual test scripts may include all manual testscripts. The method may further include the step of evaluating testresults from the performance tests executed during the performance testphase and the steps of executing the automated regression tests and theperformance tests concurrently. The method may also include the steps ofexecuting the functional tests, the automated regression tests and theperformance test concurrently. The method may also Include the steps ofexecuting the functional tests and executing the performance testsconcurrently.

Embodiments of the invention may also include one or more of thefollowing features. The deliverables may include functional andtechnical test conditions, manual test scripts and test results. Themethod may include the step of developing deliverables which may furtherinclude the step of deriving functional and technical test conditionsfrom the Identified functional and technical requirements. The step ofdeveloping deliverables may further include the step of creating manualtest scripts based on the derived functional and technical testconditions using a standard software testing tool. The step ofdeveloping deliverables may further include the steps of executingfunctional tests based on the derived functional and technical testconditions and generating test results using a standard software tool.The method may further include the steps of creating performance testsbased on the deliverables and executing the performance tests in aperformance test phase and generating test results using the standardsoftware testing tool. The step of evaluating the test results mayfurther include validating the test results from the functional testsexecuted during the functional test phase for at least two test cyclesbefore creating the automated regression tests or the performance tests.

Embodiments of the invention may further include a performance testphase module configured for selecting a second subset of manual testscripts from the manual test scripts that can be used during aperformance test phase, creating performance tests based on the secondsubset of manual test scripts and executing performance tests andgenerating test results during the performance test phase using thestandard software testing tool.

BRIEF DESCRIPTION OF THE DRAWINGS

The advantages and features of the integrated method for validating thefunctionality and performance through multiple test phases using acommon sat of requirements-based deliverables, including functional andtechnical test conditions and manual test scripts will become apparentfrom the following detailed description, appended claims andaccompanying drawings in which like references denote like orcorresponding parts, in which:

FIG. 1 depicts a computer workstation where a standard web-basedsoftware testing tool is accessed through the workstation. The softwaretesting tool is used for functionality testing, manual and automated aswell as performance testing.

FIG. 1A depicts an integrated system for validating the functionalityand performance of software applications having a functional test phasemodule, an automated regression test phase module and a performance lestphase module.

FIG. 2 depicts an embodiment of the integrated multiple phase method ofthe present invention for validating the functionality and performanceof application software.

FIG. 2A depicts another embodiment of the integrated multiple phasemethod of the present invention that uses leveraged deliverables forvalidating the functionality and performance of applications software.

FIG. 3 depicts a detailed process flow chart of the integrated multiplephase method of the present invention.

FIG. 4 depicts a detailed process flow chart of the functional andautomated regression phases of the present invention.

FIG. 5 depicts a detailed process flow chart of the functional andperformance phases of the present invention.

FIG. 6 depicts the five tier segmentation feature of the presentinvention.

DETAILED DESCRIPTION

While the invention is susceptible to various modifications andalternative forms, a specific embodiment thereof has been shown by wayof example in the drawings and will herein be described in detail. Itshould be understood, however, that If is not intended to limit theinvention to the particular form disclosed, but on the contrary, theinvention is to cover all modifications, equivalents, and alternativesfalling within the spirit and scope of the invention as defined by theappended claims.

FIG. 1 depicts computer workstation 180 which provides the user withaccess to standard software testing fool 120. Standard software fastingtool 120 is used to perform functionality and performance testing.Computer workstation 100 includes monitor 105, computer 110, keyboard115, access to standard software testing fool 120 and a mouse (notshown). The Integrated method of the present Invention can beImplemented on any workstation that is connected to the Internet,Intranet or any network form of communications. In the embodiments ofthe present invention discussed below, testing tool 120 is web-based.There are several software testing fools, such as testing fool 120 thatare known to and used by these skilled in the software testing arts.Such testing tools facilitate manual functional, automated regressionand performance testing. Testing tools including standard tool 120typically feature central repositories for scripts, data, test cases andprojects, in addition to functional and automated test functions, testmanagement, test to requirement traceability, defect traceability andmanagement, program compiler, test result report generation as well asother features that are used in functionality and performance testing.The testing tools are often web-based, because web-based toolsconveniently allow users to access the tools and any project developedwith the fools from any Internet or Intranet connected workstation,however other types of network platform may also be used. The integratedmethod discussed herein provides a framework In which to optimally usesuch software tools during functional, automated regression aridperformance testing. This method features the effective use ofdeliverables, produced during an early phase of a multi-phase testcycle, in subsequent phases to produce high quality softwareapplications, The method presented requires a testing tool; however, itsimplementation is not dependent on any particular software testing toolthat is currently being manufactured.

FIG. 1A depicts an integrated system for validating the functionalityand performance of software applications 150 having a functional testphase module 160, an automated regression test phase module 170 and aperformance test phase module 180. The modules are configured to providethe user with an integrated system on which to conduct functional,automated regression and performance phase tests using manual testscripts developed in the functional test phase. The functional testphase module 160 is configured for identifying functional and technicalrequirements, deriving functional and technical test conditions,creating manual functional test scripts and executing manual testscripts and generating test results. The automated regression test phasemodule 170 is configured for selecting a first subset of manual testscripts from the manual test scripts developed in the functional testphase module that can be used to automate testing during an automatedregression test phase, creating automated regression tests based on thefirst subset of manual test scripts, executing automated regressiontests and generating test results during the automated regression testphase using the standard software testing tool.

The integrated system may further include a performance test phasemodule 180 configured for selecting a second subset of manual testscripts from the manual test scripts developed in the functional testphase module that can be used during a performance test phase, creatingperformance tests based on the second subset of manual test scripts andexecuting performance tests and generating test results during theperformance test phase using the standard software testing fool Theadvantage of this integrated system is that it provides the user withthe ability to leverage the manual test scripts, developed in thefunctional test phase module, in subsequent test phases. Leveragingmanual test scripts reduces the duplicative testing that occurs when thetest phases are executed Independent of each other, increases testcoherence because common scripts are used for each phase and increasesefficiencies.

FIG. 2 depicts an embodiment of the integrated multiple phase method 200of the present Invention for validating the functionality andperformance of applications software. FIG. 2 depicts steps included Inconducting three business requirements-based test phases in anintegrated manner. The three phases are the functional, automatedregression and performance test phases. Referring to FIG. 2, thefunctional test phase may include the steps of identifying functionaland technical requirements 210 from business requirements document 205,deriving functional and technical test conditions 215, creating manualtest scripts 220, executing functional tests and generating test results230. Deriving functional and technical test conditions 215 involvesreviewing the identified functional and technical requirements andpreparing test data and test conditions for each transaction required bybusiness requirements document 205. Functional and technical testconditions 216 are typically entered info a spreadsheet, preferably anelectronic spreadsheet In the spreadsheet, each derived functional testand technical conditions 216 is cross-referenced to a businessrequirement 205 to maintain test condition-requirement, traceability.Alternatively, business requirement traceability may also be achievedusing a requirements management software tool Creating manual testscripts 220 involves inputting derived functional and technical testconditions 218 into software testing tool 120 accessed throughworkstation 100 and the time-intensive task of manually preparing manualtest scripts 225 using testing tool 120 for each derived businessrequirements-based functional test condition 216. Executing functionaltests and generating test results 280 involves running functional teststhat include manual test scripts 220 or executing manual test scripts220 for each functional test condition 218 and generating the testresults using test tool 120. The test results, which are the output ofstep 238, may be generated in the form of a physical report, displayedon computer monitor 105 or in electronic form. Evaluating test results235 involves reviewing the results and determining whether the resultsare sufficient relative to the predetermined business requirements, andwhether functional and technical test conditions sufficiently exerciseeach function in the software application-under-test. If the tests fail,functional and technical test conditions 216 and manual test scripts 225may be modified to better exercise the functional requirements.Functional and technical test conditions 216 and manual test scripts 225are considered deliverables of the functional test phase. Evaluatingtest results 235 may include reviewing and validating the test resultsfrom the manual test script execution or the functional test executionin the functional phase for at least two fast cycles before performingthe steps of selecting a first subset of manual test scripts 240 for theautomated regression test phase or selecting a second subset of manualtest scripts 260 for the performance test phase. Validating results mayinclude reviewing business requirements, functional and technical testconditions, and manual test scripts.

Another phase of the overall functionality and performance softwareapplication validation involves the automated regression test phase. Thepurpose automated regression tests is to automate lest scripts so thatthe functionality of the application can be tested more thoroughly.Automated tests can he easily repeated, thereby enabling morefunctionality testing than is possible with manual functional testingprocedures. Both test phases, the manual functional and automatedregression test phase Include tests that validate the functionality ofthe application-under-test. One advantageous feature of the integratedmethod of the present invention is that it eliminates the necessity ofperforming the steps of identifying the functional and technicalrequirements, deriving functional and technical test conditions andcreating manual test scripts in the automated regression test phase.These steps are costly and repetitive and are unnecessary when usingthis method.

Referring to FIG. 2, in the automated regression test phase the step ofselecting a first subset of manual test scripts 240 may involveretrieving manual test, scripts 225 from a script repository in testingtool 120 and selecting certain scripts based on a selection criteriathat may include selecting the most frequently used functions or themost frequently used tests that have minimal complexity, or selectinginfrequently used functions that have minimal complexity relative toother functions. First subset of manual tests 241 may include a portionor all manual test scripts 225. The step of selecting a first subset ofmanual test scripts 240 enables test analysts to utilize deliverables,which may be manual test scripts 225 that were produced in the earlierfunctional test phase, as the input to the automated regression testphase. Thereby eliminating repetitive steps of the testing process. Thestep creating automated regression tests based on manual test scripts245 may involve preparing automated regression test scripts usingtechniques that are commonly practiced in the software testing art tocreate such automated regression test scripts.

Alternatively, the steps of creating automated regression tests based onmanual test scripts 245 may involve the steps of the present invention,which is discussed below and depicted in FIGS. 3 and 4.

The automated regression test phase depicted in FIG. 2 includes the stepexecuting automated regression tests and generating test results 250.Step 260 is conducted using software testing tool 120. The stepevaluating test results 255 involves reviewing the test results,requirements, functional and technical test conditions, test scripts anddetermining whether functions were sufficiently tested in the automatedtest phase and validating results.

In one embodiment of the integrated method an optional performance phaseis included in the overall test cycle as shown in FIG. 2. The purpose ofperformance testing is not only to validate the functionality of theapplication hut to test the functionality under simulated real worldconditions based on technical requirements that were established forthat application-under-test. Performance testing typically involvessimulating the usage of multiple users.

The step selecting a second subset of manual test scripts 260 mayinclude the stops of reviewing technical test conditions and/orsurveying expected volumes for each business function or for the varioustransactions that comprise each business function. Second subset ofmanual tests 261 may include a portion or all manual test scripts 225.Integrated method 200 enables the same costly and repetitive stepseliminated in the automated regression test phase to also he eliminatedin the performance test phase as well. The step creating performancetests based on manual fast scripts 265 may involve preparing performancetest scripts using techniques that are commonly practiced in thesoftware testing art to create such scripts.

Alternatively, the steps of creating performance tests based on manualtest scripts 266 may involve the steps of the present invention, whichis discussed below and depicted in FIGS. 3 and 5.

The step of executing performance tests and generating test results 270is also conducted using software testing tool 120. The step evaluatingtest results 275 may include reviewing test results and determiningwhether the performance of the application-under-test.

Optionally, integrated method 200 may be conducted so that steps of thefunctional test phase, automated regression test phase and theperformance test phase are performed concurrently after the manual testscripts have been created. Similarly, another option enables the stepsof the automated regression test phase and the performance test phase beperformed concurrently. Concurrent performance of two or more fastphases is an efficient way of reducing the time that is required toconduct the functionality and performance validation test cycle.

In an alternative embodiment of integrated method 200 shown in FIG. 2manual test scripts 226 may be leveraged between the functional test andperformance test phases only. The steps of this alternative embodimentinclude many of the same steps discussed above, identifying functionaland technical requirements based on the business requirementsestablished for the application-under-test 210; deriving functional andtechnical test conditions based on the identified functional andtechnical test requirements in a functional test phase 215; creatingmanual test scripts based on the functional and technical testconditions using a standard software testing tool accessed through acomputer workstation 220; executing the manual test scripts during thefunctional test phase using the standard software testing tool andgenerating test results 230; selecting a subset of manual test scriptsthat can be used during a performance test phase 260; creatingperformance test, based on the subset of manual test scripts 265; andexecuting the performance tests and generating test results using thestandard software testing tool 270.

The alternative embodiment of the integrated method further optionallyincludes the step of evaluating the test results from the manual testscripts execution (functional test execution) in the functional testphase for at least two functional test cycles and validating the resultsbefore selecting the subset of manual test scripts to be used to createperformance tests. A functional test cycle occurs during the functionaltest phase and may include the steps of deifying functional andtechnical test conditions 215, creating manual test scripts 220;executing functional tests based on manual test scripts or executingmanual test scripts and generating the results 230. Optionally, thesteps of the functional test phase and performance test phase areperformed concurrently after the manual test scripts have been created.

FIG. 2A depicts yet another embodiment of the integrated multiple phasemethod of the present Invention which uses leveraged deliverables forvalidating the functionality and performance of applications software.In this embodiment of the present invention, deliverables may includemanual test scripts, functional and technical test conditions, and/orfunctional test results. The step developing deliverables 280 mayInvolve the steps of deriving functional and technical test conditionsbased on the identified functional and technical requirements, creatingmanual test scripts based on the derived functional and technical testconditions and executing functional tests based on the derivedfunctional and technical test conditions and generating test resultsusing a standard software tool. The deliverables 285 may be used asinputs to the automated regression test phase or the performance testphase or both. The step of creating automated regressions tests based ondeliverables 290 may include the step selecting all of the deliverableswhich includes functional and technical test conditions, manual testscripts and test results or a combination of the types of deliverablesfor use in creating automated tests scripts and creating automated testscripts. Similarly, deliverables 285 may be selected used as inputs tothe performance test phase. Creating performance tests based ondeliverables 295 includes the steps of selecting all or a portion ofdeliverables 285 for use in creating performance test scripts andcreating performance test scripts. This integrated method enablesdeliverables to be utilized as inputs In either the automated regressiontest phase or the performance test phase or both, reducing repetitiveand costly testing. This embodiment of the integrated validation methodmay incorporate the use of commonly known automated regression andperformance testing techniques or the testing techniques of the presentinvention discussed herein and depicted in FIGS. 3-6.

Each embodiment of the integrated method discussed herein enablesorganizations to thoroughly and consistently test the functionality andperformance of software applications. This method provides an enhancedconsistency throughout a muff-phase testing cycle because the inputs ordeliverables to each phase of testing are the same and are based on thesame functional and technical test conditions and requirements. Theoutput of this integrated method is a fully tested high quality softwareapplication.

FIG. 3 depicts a detailed process flow chart of an embodiment of theintegrated end to end multiple phase method of the present inventionthat leverages deliverables such as manual test scripts between thefunctional, automated regression and performance test phases.

FIG. 4 depicts a detailed process flow chart of the functional andautomated regression test phases 400 in the integrated method of thepresent invention. The functional phase steps may be the same functionalphase step as depicted in FIG. 2. In this embodiment of the automatedregression test phase includes the steps of selecting a subset of manualtest scripts from the functional phase of testing, creating automatedregression tests based on the a first subset of manual test scripts andexecuting automated regression test and generating test results duringthe automated regression test phase using the standard software tool Thestep of creating automated regression tests based on the first subset ofmanual test scripts further may Include the steps of reviewing screensused for each script from the first subset of manual test script,identifying object types on each of the screens, identifying actions foreach object type identified on each of the screens, creating reusableVBscript functions for each action identified, identifying identifiersfor each unique object of an object type, creating an XML objectrepository that contains reusable XML objects, creating reusableautomated functions based on the reusable VBscript functions andreusable XML objects to create application functions and creatingautomated test scripts based on the grouped reusable functions.Integrated method 400 may include the step of evaluating the automatedtest results. Optionally, the manual test scripts that are the inputs tothis automated regression test phase may be created using methods knownto those skilled in the art: and are not required to have been createdin the functional test phase as depicted in FIG. 4.

Step 410 creating reusable functions for each action involves using atool specific API or Application Programming Interface to create thecode for the functions. Various types of API may he used to create thereusable functions Including VBscript or C programming language. In thisembodiment of the present Invention VBscript Is used to create thereusable functions. These functions are used as building block for theautomated functions. Automation analysts create code for VBscriptfunctions that describe various actions which may be performed on thevarious objection a web page. These reusable VBscript functions areflexible enough to be used by all business functions offered by theapplication. Thus, there are very few functions associated with eachobject type. For Example; EditAField (field_name, field_value) functioncan be used for all business functions that Involve editing a fieldwithin the application by specifying the name of the field and the valuethat the user would like to input Into the field. Input values can bedata driven from data files or other sources.

Step 420 creating reusable automated functions is based on the reusableVBscript functions and reusable XML objects to create applicationfunctions. Automated functions are used as building blocks for automatedtest cases and test scripts. An automation analyst can develop VBscriptfunctions that describe business functions that are supported by theapplication. The VBscript functions and the XML objects are usedtogether to create reusable automated function. For example;

a. Login ( ) function can be built as:

b. Enter user ID: EditAField(“user_id”, “MaryJane”)

c. Enter Password: EditAField (“password”, “SecretPassword22”)

d. Click Login button: ClickAButton (“Submit”)

The advantages of this automated regression test method is that isprovides increased flexibility and reusability of commonly usedfunctions and It enables the work process in the functional andautomated regression test phases to be segmented so that analyst skilllevel can be more appropriately matched to task complexity. The fivetier segmentation of the automated regression phase and itsapplicability to human resource allocation is discussed more fully belowand depicted in FIG. 6. Another advantage of this automated regressiontest is that it provide more testing flexibility and reusable than Isprovided for in the standard record and play automated test that iscurrently available in many standard testing tools.

FIG. 5 depicts a detailed process flow chart of the functional andperformance phases of the present invention. The performance test phasemay be conducted using a standard software testing foot capable ofexecuting performance-type tests. In the embodiment shown in FIG. 5 theperformance test phase is preferably conducted using deliverables suchas manual test scripts from the functional test phase. Inputs to theperformance, test phase, however, may be developed independent offunctional test phase deliverables. Referring to FIG. 5 an embodiment ofpresent Invention may have a performance test phase that includes thefollowing steps: identifying key business transactions by using a subsetof manual test scripts (or a second subset depending on whether theautomated test phase is part of the integrated test), reviewing businessrequirements and a transaction risk-based selection process 510,defining user scenarios, defining test data requirements, definingenvironment requirements, defining environmental monitoringrequirements, creating performance test scripts, implementing scriptstandards 520, creating performance data, conducting script peer review,executing performance tests and generating results, remediatingperformance defects, reviewing final performance test results andsigning of the performance tests results.

The steps defining environment monitoring requirements, conductingscript peer review, reviewing final performance test results and signingoff performance test am considered best practices and may optionally beincluding the performance test phase process.

Step 510 implementing key business transactions uses a subset of manualtest scripts from the functional test phase, includes a review of thebusiness requirements. Step 510 also includes a transaction risk-basedselection process. The transaction risk-based selection process mayinvolve working with the architecture and development teams to determinewhich application functions are a performance risks and which functionsmay have response times that are affected by data inputs. Optionally,production statistics, if available may be applied to applicationfunctions to determine the transaction volume risk. If productionstatistics are not available then the analysts should work with thebusiness to determine the transaction volume risk based on forecasteduser behaviors.

Step 510 also may include the step of determining business criticalityrisk for application functions. Risk levels for performance, volume andbusiness criticality may be ranked as H-high, M-medium or L-low andwhether it is input driven (Y-yes or N-no). Step 510 may further includeassigning a score to each function based on its ranking. The scoreassignments include H=3 points, M=2 points, L=1 point, Y=1 point and N=0points. All application functions with a score of 5 or higher will beincluded In the, performance test. Key application functions are used toselect manual test cases that best represent normal business processing.Selected test cases may then be broken down into individualtransactions.

One of the advantages of using this using this risk-based transactionselection process Is that it improves test coverage. This selectionprocess may in some cases provide up to 98 percent coverage of the testcases, Coverage of ninety-eight percent is a substantial improvementover the industry standard for performance testing, which is typicallyabout 60 percent coverage.

Step 520 implementing script standards may include the steps ofdeveloping a single script, managing script based workflow, centralizingapplication functions, validating context sensitive data andcentralizing error handling.

Developing a single script includes combining individually developedscripts into one main script prior to execution. Moreover, during thisprocess transactions Identified throughout the risk-based transactionselection process will be documented into a user scenario. Each userscenario is scripted as a section within the script. Each section mayrequest additional functions that are shared within the script. Oneadvantage of this centralized single script process is that having onemain script reduces the amount of script maintenance that is requiredduring and after script execution and test execution. Another advantageof having a centralized single script is that output is increased. Yetanother advantage of this process is that it enables changes to userrequirements, transaction ratios, application builds and transactionexecution rates that occur during execution to be incorporated into thetest with a reduced turnaround time and increased reliability. Anexample the advantage of developing a single script is as follows:

a. A typical test can have between 10-20 user scenarios,

b. If each one of these were a separate script and the number of usersincreased with all other tasks being equal then all 10-20 user levelswould have to be recalculated and each new user level would have to beentered manually in 10-20 locations, increasing the chance of humanerror.

c. Errors would result in loss of execution cycles.

d. With only one script, the total user level would only have to beentered Into a single location.

Managing script based workflow involves removing workflow managementfrom the software test tool's Graphic User interface or GUI and placingit within the script. Having management within the script eliminatesgranularity limitations that inherent in many standard software testingfools that control the test execution process. Typically, standardsoftware testing fools limit user scenarios execution granularity to aminimum of approximately one percent. Software testing tools typicallyrequire the workflow to be setup using proprietary files which aredifficult to understand, distribute and manipulate outside of thesoftware tool's graphical user interface. In contrast, the script basedworkflow resides in a simple text file. One advantage of the scriptbased workflow process of the present invention is that flatten filescan be easily distributed, attached to any email, opened In a texteditor and can easily modified. Another advantage of the managing scriptbased workflow process is the increased granularity provided. Forexample, user scenarios may be executed at 0.5 or as low as 0.001percent granularity.

Centralizing application functions organizes shared applicationfunctions such as “login” and “logout. ” Centralization eliminatesmultiple areas where errors may occur when the login/logoutfunctionality is changed or the user access rights are changed. Thesetypes of errors typically occur when a new application version isreleased or during the issue resolution phase of execution. It isrecommended that the use of “goto” statements should be avoided andfunctions calls used instead. Generally, “goto” statements are moredifficult to follow and therefore rapid script/debug is more difficultto achieve.

Validating context sensitive data includes confirming that the properdata is being displayed by the application. In some cases when anapplication is operating under load conditions, erroneous data Is sentto the user when a proper request is entered. This validating stepenables these types of errors to be discovered during the performancetest execution. If the data is not context sensitive most to these typesof errors would not be discernable.

For example:

a. When Ted Langy logs info the application, he receives a page stating“Welcome Ted Langy.”

b. The application will only state “Welcome Ted Langy” when he logs in.

c. If Laura Wilcox logs in, it states “Welcome Laura Wilcox.”

d. To verify with context sensitive validation there has to be a checkthat will change based on what user logs in.

Centralizing error handling provides a means to capture all errors thatoccur during the execution of a performance test application, script ordata setup and still allow the script to run without producingrepetitive erroneous failures. In order to accomplish this, after anerror occurs the details of that error are captured (typically ascreenshot). the script then exits the application and subsequentlyre-launches the application. This permits the script to start fresh andcontinue similar to the behavior of an actual user. The advantage ofcentralizing error handling is that error handling functions can easilybe updated when they are centralized. Using a function call Instead ofseveral lines of code eliminates unnecessary clutter from the script.

The advantages of this embodiment of the performance test phase of thepresent invention are the ability to determine whether an applicationwill support production volumes In a controlled environment, reducedrisk of performance errors found in production, the ability to detectinfrastructure and architecture issues not detectable in functionalphase testing, increased input into infrastructure and architecturescalability planning as well as increased test case coverage from theindustry standard of 20% up to as much as 60%).

FIG. 6 depicts the five tiered segmentation framework of the presentinvention for the automated regression test phase. Referring to FIG. 6,this five tiered framework provides a scheme whereby the skill level ofanalysts can effectively and efficiently be matched with a particulartask. FIG. 6 correlates specifically to the automated regression methodshown in FIGS. 3 and 4. The automated regression process is segmentedinto five tiers.

Tier 1 involves the execution of a test set or a group of test cases.Task that fall within this tier may be executed by an analyst with abeginner or intermediate skill level. Similarly, Tier 2 involves theexecution of test cases and requires the same level of skill as Tier 1.Tier 3 involves the creation of application functions which requires ananalyst to have sufficient skill to create code for reusable automatedfunctions. Therefore, the skill level required for Tier 3 isintermediate or advanced skills. Tier 4 involves the creation of genericobject action which requires an analyst with intermediate or advancedknowledge of VBscript code creation for reusable functions for eachaction. Tier 5 which involves creating code for reusable XML objectsalso requires intermediate and advanced knowledge.

This tiered framework also facilitates skill level and task matches inthe functional test and performances test phase as well. The entirefunctional phase would be considered to involve Tier 1 level tasks.Therefore, any beginner or Intermediate level analyst should be able toexecute all tasks In the functional test phase, Conversely, most tasksin the performance test phase require an analyst with advanced skilled.

Tier 5 consists of XML code that is developed to perform specificfunctions during the testing process. Tier 4 consists of the XML codefrom Tier 5 broken up into disparate object actions that correspond toparticular features or functions of the code. Thus, object actions mayinclude “EditAField,” “ClickAButton,” or “ClickALink.” Tier 3 may beconsidered the boundary between technical/object coding and the businessapplication requirements. Tier 3 may include specific categories ofobject actions from Tier 4 that when grouped create applicationfunctions such as “login” or “ViewPortfolio.” Tier 2 may include acollection of particular application functions from Tier 3. Tier 1 mayInclude a group of test cases and be referred to as a test set.

The advantages of this segmentation framework, particularly in theautomated regression test phase, are enhanced testing efficiencies,increased human resource productively, fewer resources required, reducedrisk of data related errors, reduced test cycle time, increased testcase coverage (from 60% to as much as 98%), and Improved test accuracy.

The integrated method for validating the functionality and performanceof software application of the present invention provides a method tomore efficiently produce software applications with increasedreliability, fewer defects and at a reduced cost. This integrated methodis preferably implemented by one unified organization that focuses on

The integrated method of the present invention may be used by anysoftware application testing organization that engages validating thefunctionality and performance of software applications. This methodprovides users with an organized framework to use existing softwarefasting tools more efficiently and to allocate human resources moreeffectively.

An advantage of the integrated method of the present invention is thatis provides a framework for testing organizations to use standardtasting tools more efficiently by leveraging deliverables between phasesin a multi-phase functionality and performance testing cycles.

Another advantage of the integrated method of the present invention isthat it facilitates enhanced communication between analysts performingdifferent tests in different phases of the functionality-performancetest cycle and the sharing of deliverables between phases to increaseproductivity and efficiency.

Yet another advantage of the integrated method of the present inventionis that the test results from the functional, automated regression andperformance test phases are more consistent with each other because theInputs to each phase are the same, i.e. the same application functionsare tested using the same requirements-based deliverables.

Yet another advantage of the integrated method of the present inventionis that it may enable organizations to reduce cost expenditures that aretypically associated with repetitive functionality and performancetesting.

The present invention does not require all of the advantageous featuresand all of the advantages to be incorporated In every embodiment of theinvention, Moreover, although the present invention has been describedin considerable detail, with reference to certain embodiments, otherembodiments are possible. Therefore, the spirit and scope of theappended claims should not be limited to the description of theembodiments contained herein.

1-20. (canceled)
 21. An integrated method for validating thefunctionality and performance of software applications through multipletest phases using a common set of business requirements-based manualtest scripts, the method comprising the steps of: deriving softwareapplication test conditions; generating manual test scripts based on thesoftware application test conditions; processing, using at least oneprocessor, the manual test scripts; selecting a first subset of manualtest scripts from the manual test scripts; creating automated regressiontests based on the first subset of manual test scripts, wherein creatingautomated regression tests comprises: identifying object types;identifying actions for each object type identified; creating reusablefunctions for each action identified; identifying identifiers for eachunique object of the identified object types; creating automatedfunctions based on the reusable functions and a plurality of reusableXML objects; and creating automated test scripts based on the automatedfunctions; and automatically executing automated regression tests. 22.The method as recited in claim 21, further comprising the steps of:selecting a second subset of manual test scripts from the manual testscripts; generating performance tests based on the second subset ofmanual test scripts; and executing, using at least one processor,performance tests.
 23. The method as recited in claim 22, wherein thestep of creating performance tests based on the second subset of manualtest scripts further comprises the steps of: identifying key businesstransactions; and implementing script standards.
 24. The method asrecited in claim 22, wherein the step of creating performance testsbased on the second subset of manual test scripts further comprises thesteps of: reviewing system requirements; defining user scenarios;defining test data requirements; defining environment requirements; andcreating performance test data.
 25. The method as recited in claim 22,further comprising the step of evaluating test results from theperformance tests executed.
 26. The method as recited in claim 25,wherein the step of evaluating test results from the performance testsfurther comprises the steps of remediating performance defects,executing performance tests and generating results.
 27. The method asrecited in claim 22, wherein the steps of generating and executing ofperformance tests are performed before the step of executing theautomated regression tests.
 28. The method as recited in claim 2.1,further comprising the steps of generating test results based on themanual test scripts processed; and evaluating the test results for atleast two test cycles and validating the results before selecting afirst or second subset of manual test scripts to be used for subsequenttest phases.
 29. The method as recited in claim 21, further comprisingthe slop of evaluating the test results from the automated regressiontests executed during the automated test phase.
 30. The method asrecited in claim 29, wherein the step of evaluating the test resultscomprises remediating performance defects and generating results.
 31. Anintegrated method for validating the functionality and performance ofsoftware applications in the functional and performance test phasesusing a common set of business requirements-based manual test scripts,the method comprising the steps of: deriving software application testconditions; generating manual test scripts based on the softwareapplication test conditions; processing, using at least one processor,the manual test scripts; generating performance tests based on at leastone script of the manual test scripts; generating automated regressiontests based on at least one script of the manual test scripts, whereingenerating the automated regression tests comprises: creating reusablefunctions for each action identified; creating automated functions basedon the reusable functions and reusable XML objects; grouping reusableautomated functions to create grouped reusable automated functions; andcreating automated test scripts based on the grouped automatedfunctions; and executing, using at least one processor, the automatedregression tests, executing, using at least one processor, theperformance tests.
 32. The method as recited in claim 31, wherein thestep of creating performance tests based on the a subset of manual testscripts further comprises the steps of: identifying key businesstransactions by using the subset of manual test scripts, reviewingbusiness requirements and using a transaction risk-based selectionprocess; and implementing script standards that include the steps ofdeveloping a single script, managing script based workflow,automatically centralizing application functions, validating contextsensitive data, and automatically centralizing error handling.
 33. Anintegrated system for validating the functionality and performance ofsoftware applications through multiple test phases using a common set.of business requirements-based manual test scripts, the systemcomprising: a functional test phase module configured for derivingsoftware application test condition, generating, using at least oneprocessor, manual test scripts based on the software application testconditions, and processing, using at least one processor, the manualtest scripts; and an automated regression test phase module configuredfor creating and executing automated regression tests based on a firstsubset of manual test scripts, the automated regression test phasemodule creates the automated regression tests by performing at. leastthe steps of identifying object, types, identifying actions for eachobject type identified, creating reusable functions for each actionidentified, identifying identifiers for each unique object, of theidentified object types, creating automated functions based on thereusable functions and a plurality of reusable XML objects and creatingautomated test scripts based on the automated functions.
 34. The systemas recited in claim 33, further comprising: a performance test phasemodule configured for creating performance tests based on a secondsubset of manual test scripts and executing the performance tests. 35.The system as recited in claim 34, wherein the performance test phasemodule is further configured for identifying key business transactionsby using the second subset of manual test scripts, reviewing businessrequirements and using a transaction risk-based selection process andimplementing script standards based on a single script, a script basedworkflow management, centralized application functions, contextsensitive data validation, and centralized error handling.
 36. Thesystem as recited in claim 34, wherein the performance test phase moduleis further configured for generating test results and evaluating thetest results from the performance tests executed.
 37. The system asrecited in claim 36, evaluating the test results includes remediatingperformance defects, executing performance tests and generating results.38. The method as recited in claim 34, wherein performance test phasemodule is configured to generate and execute the performance testsbefore the executing of the automated regression tests by the automatedregression test phase module.
 39. The system as recited in claim 33,wherein the functional test phase module is further configured forgenerating test results based on the manual test scripts processed,evaluating the test results for at least two test cycles and validatingthe results before selecting a first or second subset of manual testscripts to be used for subsequent test phases.
 40. The system as recitedin claim 33, wherein the automated regression test phase module isfurther configured for evaluating the test results from the automatedregression tests.